1 pulley, 2 masses, 2 inclines

1. The problem statement, all variables and given/known data
Calculate the tension in the cable connecting the two masses. Assume all surfaces are frictionless.
in lieu of the picture here are the given specs:

on the left side a 5 kg mass with a 60' incline
on the right side a 6 kg mass with a 70'incline

2. Relevant equations
a=Fgsinθ
Fnet = ma

3. The attempt at a solution
my attempt was to calculate both sides for acceleration since its frictionless both would be non dependant on the weight of the mass
then i used
Fnet=ma
so Ft-Fg = ma
and after the math Ft = 41.45 and for the right side Ft= 114.66 but its the wrong answer so how do i complete this question?

the only analytical approach is to draw a Free Body Diagram(FBD) of both bodies and the string and identifying the constraints.

Guessing that the values shouldn't depend on mass, is risky and should be avoided at all costs.

When you draw the FBD of blocks, forces acting on them are their weight components parallel and perpendicular to incline.The normal reaction exerted by inclines and the tension force exerted by chord.

Now you draw the FBD of string which will help you corelate the tension forces exerted by strings on both bodies.(What is it? How does the mass of string affect this relation?)

Finally you identify the constraints.The only possible movement can be parallel to the inclined surfaces (body 1 will move parallel to incline 1, body 2 will move parallel to incline 2)and at all times no motion takes place perpendicular to the incline(body 1 has no motion perpendicular to incline 1 and body 2 has no motion perpendicular to incline 2).

Plug in the values.
Apply Netwons 2nd and Third Law relating action reaction forces.
What do you see?